See magical new deep-sea photos of coral gardens and thermal vents
Scientists on board a deep-sea expedition to the South Sandwich Islands near Antarctica have returned with a treasure trove of photos of previously unseen marine life.
They found coral gardens, hydrothermal vents and many suspected new species while exploring around the island chain, including in the deepest trench in the Southern Ocean.
The same international team, aboard Schmidt Ocean Institute's research vessel Falkor (too), made headlines last month with their world-first footage of a colossal squid. And in January, they were in the right place at the right time to explore the seafloor when a Chicago-sized iceberg broke away from an ice shelf in Antarctica.
But there were many more 'magic moments' on the 35-day deep-sea expedition to this extremely biodiverse part of the ocean.
'The 35 days at sea were an exciting rollercoaster of scientific discovery; the implications of which will be felt for many years to come as discoveries filter into management action,' says Dr Michelle Taylor, head of science and expedition principal investigator at the Ocean Census - the world's largest initiative to accelerate the discovery of ocean life.
These remarkable photos take us along for the ride.
Located in the South Atlantic, the South Sandwich Islands are part of a rich mosaic of geologic features.
These include hadal zone trenches (the deepest region of the ocean), underwater volcanoes, and spreading centres - features created by tectonic forces that have supported the evolution of species found nowhere else on the planet.
It took eight days for the research vessel to travel to the islands from the port of Punta Arenas, Chile.
On board were Ocean Census scientists, who led efforts to discover new species, and researchers from GoSouth, a collaboration between the UK's University of Plymouth, the British Antarctic Survey and Germany's GEOMAR, tasked with investigating the effects of geohazards, including tsunamis, volcanoes, and earthquakes.
The GoSouth team, led by co-chief scientist Dr Jenny Gales, discovered two pockmarks in the mapping data of an underwater caldera - a bowl-shaped depression in the seafloor, left after a volcano erupts.
Since pockmarks can indicate hydrothermal activity, the team deployed the vessel's remotely operated vehicle (ROV) SuBastian to map the pockmarks at a higher resolution.
The robot confirmed the presence of hydrothermal vents - fissures from which geothermally heated water rises - finding three on the larger pockmark, and one on the smaller one.
Located at a depth of 700 metres, they are some of the shallowest hydrothermal vents to have been discovered near the South Sandwich Islands. The tallest vent chimney was four metres - about as tall as a basketball hoop.
'Discovering these hydrothermal vents was a magical moment, as they have never been seen here before,' says Dr Gales, an associate professor in Ocean Exploration at the University of Plymouth.
'It's an incredible discovery that provides valuable insights into the area's tectonic activity. Making such a discovery is rare. It highlights the importance of ocean exploration and seafloor mapping.'
Each vent was covered with an array of life dependent on chemosynthesis (producing food using inorganic substances without sunlight), including sea snails and barnacles.
Thriving coral gardens and large sponges were also found in close proximity to the vents - an unusual observation, according to Dr Taylor.
Meanwhile, Ocean Census scientists uncovered a range of potentially new marine life - including corals, sponges, snails, sea urchins, sea stars and benthic (sea bottom) ctenophores, which have gelatinous bodies.
A thriving coral garden located west of Saunders Island at a depth of 120 metres is pictured in one of the most breathtaking photos from the expedition.
The exact number of new species will be announced later this year when experts have had time to formally assess and catalogue the findings.
But they include a possible new sea cucumber species - marine invertebrates so-named for their soft cylindrical bodies. These creatures play a crucial role in benthic ecosystems by recycling nutrients, and are well-adapted to the cold Antarctic environment.
During a dive in the South Sandwich Trench - one of the coldest and most isolated submarine trenches on the planet - the team also spotted snailfish eggs laid on a black coral, a previously unknown behaviour.
They also captured the first footage of Akarotaxis aff. gouldae, a species of dragonfish that was discovered only two years ago. And found large pumice blocks, indicating that the South Sandwich Islands are capable of explosive volcanism.
Mother Nature threw everything she had at the expedition, says Dr Taylor, including a subsea earthquake, tropical storm force winds with hurricane-level gusts, eight-metre waves, and icebergs to navigate.
'The challenging ocean and weather conditions and the isolated location of the South Sandwich Islands capture the imagination of the boldest explorers - often the closest humans to the vessel were on the International Space Station,' says Schmidt Ocean Institute's executive director, Dr Jyotika Virmani.
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Euronews
18-05-2025
- Euronews
See magical new deep-sea photos of coral gardens and thermal vents
Scientists on board a deep-sea expedition to the South Sandwich Islands near Antarctica have returned with a treasure trove of photos of previously unseen marine life. They found coral gardens, hydrothermal vents and many suspected new species while exploring around the island chain, including in the deepest trench in the Southern Ocean. The same international team, aboard Schmidt Ocean Institute's research vessel Falkor (too), made headlines last month with their world-first footage of a colossal squid. And in January, they were in the right place at the right time to explore the seafloor when a Chicago-sized iceberg broke away from an ice shelf in Antarctica. But there were many more 'magic moments' on the 35-day deep-sea expedition to this extremely biodiverse part of the ocean. 'The 35 days at sea were an exciting rollercoaster of scientific discovery; the implications of which will be felt for many years to come as discoveries filter into management action,' says Dr Michelle Taylor, head of science and expedition principal investigator at the Ocean Census - the world's largest initiative to accelerate the discovery of ocean life. These remarkable photos take us along for the ride. Located in the South Atlantic, the South Sandwich Islands are part of a rich mosaic of geologic features. These include hadal zone trenches (the deepest region of the ocean), underwater volcanoes, and spreading centres - features created by tectonic forces that have supported the evolution of species found nowhere else on the planet. It took eight days for the research vessel to travel to the islands from the port of Punta Arenas, Chile. On board were Ocean Census scientists, who led efforts to discover new species, and researchers from GoSouth, a collaboration between the UK's University of Plymouth, the British Antarctic Survey and Germany's GEOMAR, tasked with investigating the effects of geohazards, including tsunamis, volcanoes, and earthquakes. The GoSouth team, led by co-chief scientist Dr Jenny Gales, discovered two pockmarks in the mapping data of an underwater caldera - a bowl-shaped depression in the seafloor, left after a volcano erupts. Since pockmarks can indicate hydrothermal activity, the team deployed the vessel's remotely operated vehicle (ROV) SuBastian to map the pockmarks at a higher resolution. The robot confirmed the presence of hydrothermal vents - fissures from which geothermally heated water rises - finding three on the larger pockmark, and one on the smaller one. Located at a depth of 700 metres, they are some of the shallowest hydrothermal vents to have been discovered near the South Sandwich Islands. The tallest vent chimney was four metres - about as tall as a basketball hoop. 'Discovering these hydrothermal vents was a magical moment, as they have never been seen here before,' says Dr Gales, an associate professor in Ocean Exploration at the University of Plymouth. 'It's an incredible discovery that provides valuable insights into the area's tectonic activity. Making such a discovery is rare. It highlights the importance of ocean exploration and seafloor mapping.' Each vent was covered with an array of life dependent on chemosynthesis (producing food using inorganic substances without sunlight), including sea snails and barnacles. Thriving coral gardens and large sponges were also found in close proximity to the vents - an unusual observation, according to Dr Taylor. Meanwhile, Ocean Census scientists uncovered a range of potentially new marine life - including corals, sponges, snails, sea urchins, sea stars and benthic (sea bottom) ctenophores, which have gelatinous bodies. A thriving coral garden located west of Saunders Island at a depth of 120 metres is pictured in one of the most breathtaking photos from the expedition. The exact number of new species will be announced later this year when experts have had time to formally assess and catalogue the findings. But they include a possible new sea cucumber species - marine invertebrates so-named for their soft cylindrical bodies. These creatures play a crucial role in benthic ecosystems by recycling nutrients, and are well-adapted to the cold Antarctic environment. During a dive in the South Sandwich Trench - one of the coldest and most isolated submarine trenches on the planet - the team also spotted snailfish eggs laid on a black coral, a previously unknown behaviour. They also captured the first footage of Akarotaxis aff. gouldae, a species of dragonfish that was discovered only two years ago. And found large pumice blocks, indicating that the South Sandwich Islands are capable of explosive volcanism. Mother Nature threw everything she had at the expedition, says Dr Taylor, including a subsea earthquake, tropical storm force winds with hurricane-level gusts, eight-metre waves, and icebergs to navigate. 'The challenging ocean and weather conditions and the isolated location of the South Sandwich Islands capture the imagination of the boldest explorers - often the closest humans to the vessel were on the International Space Station,' says Schmidt Ocean Institute's executive director, Dr Jyotika Virmani.
Euronews
15-04-2025
- Euronews
World's most elusive squid? Scientists just filmed colossal squid alive for the first time
ADVERTISEMENT One hundred years after the colossal squid was identified, scientists have filmed a live specimen in the wild for the first time, marking a milestone in deep sea exploration. During a research expedition in March, a team aboard the Schmidt Ocean Institute's Falkor (too) vessel encountered the elusive creature near the South Sandwich Islands, in the frigid depths of the southern Atlantic Ocean. Measuring just 30 centimetres – a fraction of the size it can grow – the juvenile squid was filmed 600 metres below the surface by a remotely operated vehicle. Its haunting, translucent form offered an extraordinary glimpse into one of the ocean's most mysterious species. 'It's exciting to see the first in situ footage of a juvenile colossal and humbling to think that they have no idea that humans exist,' said Dr Kat Bolstad of the Auckland University of Technology, one of the independent experts who verified the footage. Scientists discovered the squid by accident Little is known of the colossal squid's life cycle. Dying adults have occasionally been hauled in or filmed by fishermen , but none had been observed alive at such depth. 'For 100 years, we have mainly encountered them as prey remains in whale and seabird stomachs and as predators of harvested toothfish,' said Bolstad. Experts believe they can grow up to seven metres in length and weigh as much as 500 kilogrammes, making them the heaviest invertebrate and largest squid on the planet. As they mature, juveniles lose their see-through appearance and take on a reddish hue. Related Fish and microchips: how AI can help Europe's fishers and protect the seas Is hake's remarkable recovery in the Atlantic a sign of hope for our oceans? This sighting is even more remarkable for the fact that it was something of a happy accident. According to a Schmidt Ocean Institute spokesperson, the team had set out to discover new marine life, not find and film the colossal squid. The team has found two new species in three months The March expedition wasn't the only time the research team struck scientific gold in 2025. In January, the team filmed the first confirmed footage of the glacial glass squid in the Southern Ocean near Antarctica – another species never before seen in its natural habitat. According to Bolstad and Dr Aaron Evans, another independent expert who verified the footage, these two juvenile squids share several similarities. Both have transparent bodies and sharp hooks at the ends of their two longer tentacles. Unlike the colossal squid, however, the glacial glass squid lacks hooks in the middle of its eight arms. The sighting occurred in the Bellingshausen Sea, as scientists studied the seafloor revealed by a massive iceberg , roughly the size of Chicago, breaking away from the George VI ice shelf. The resulting shake-up revealed a previously hidden ecosystem , shedding light on how climate change is affecting the polar oceans and how little we know of their depths. 'The first sighting of two different squids on back-to-back expeditions is remarkable and shows how little we have seen of the magnificent inhabitants of the Southern Ocean,' said Dr Jyotika Virmani, executive director of the Schmidt Ocean Institute. More discoveries await in the deep seas The 35-day expedition that captured the footage of the colossal squid was part of a collaboration between the Schmidt Ocean Institute, the Nippon Foundation-Nekton Ocean Census and GoSouth, a joint project between the University of Plymouth (UK), the GEOMAR Helmholtz Centre for Ocean Research (Germany) and the British Antarctic Survey. ADVERTISEMENT Related Interview: Fishery rules revamp will protect species and legitimate fishers A giant Antarctic glacier is melting but scientists have found a way to thicken Arctic sea ice Only 240,000 marine species have so far been documented, leaving millions more to be discovered. The Schmidt Ocean Institute has helped to fill that gap. The institute's remotely operated vehicle, SuBastian, has captured the first confirmed footage of at least four squid species in the wild – including the colossal squid and glacial glass squid – with another yet to be verified. Their work is just beginning. 'These unforgettable moments continue to remind us that the ocean is brimming with mysteries yet to be solved,' Virmani said.
Euronews
23-03-2025
- Euronews
Scientists were in Antarctica when a giant iceberg broke free. Here's what they found in its shadow
ADVERTISEMENT Giant sea spiders, ice fish and octopuses are among the surprisingly abundant creatures scientists have found in a stretch of sea that used to be covered by ice. An international team onboard the Schmidt Ocean Institute's Falkor (too) research vessel were on a trip around Antarctica earlier this year, studying 'the interface between ice and sea' when a rare opportunity suddenly opened up. On 13 January, an iceberg the size of Chicago named A-84 broke away from the George VI Ice Shelf, one of the massive floating glaciers attached to the Antarctic Peninsula ice sheet. The remnants of a massive iceberg calving event, seen from Research Vessel Falkor (too). Alex Ingle / Schmidt Ocean Institute 'We seized upon the moment, changed our expedition plan, and went for it so we could look at what was happening in the depths below,' says expedition co-chief scientist Dr Patricia Esquete from the University of Aveiro, Portugal. 'We didn't expect to find such a beautiful, thriving ecosystem. Based on the size of the animals, the communities we observed have been there for decades, maybe even hundreds of years.' Related World Glacier Day: UN warns of 'avalanche of cascading impacts' as ice melt increases What did the scientists find under the iceberg space? Pausing their work in the Bellingshausen Sea, the team reached the site of the vacated iceberg on 25 January, becoming the first to investigate an area never before accessible to humans. They carried out the first detailed study of the geology, physical oceanography and biology beneath such a large area once covered by a floating ice shelf. The ice that calved off of the sheet was approximately 510 square kilometres - exposing an equivalent area of seafloor . Patricia Esquete inspects a suspected new species of isopod that was sampled from the bottom of the Bellingshausen Sea off Antarctica. Alex Ingle / Schmidt Ocean Institute Using Schmidt Ocean Institute's remotely operated vehicle , ROV SuBastian, the team observed the deep seafloor for eight days and found flourishing ecosystems at depths of 1,300 metres. Large corals and sponges were discovered supporting an array of animal life, including what the team suspect to be several new species - though it will take years to determine this. Related First ever footage of the Antarctic seabed reveals a thriving ecosystem threatened by ice melt Black snow, emissions and bird flu: How Antarctic cruises hurt more than they help How does life survive beneath a floating ice sheet? Little is known about what dwells beneath Antarctica's floating ice shelves. This expedition is the first to use an ROV to explore this remote environment. It offers new insights into how ecosystems can function in such submerged depths. Deep-sea ecosystems typically rely on nutrients from the surface slowly raining down to the seafloor, the Schmidt Ocean Institute explains. An octopus rests on the seafloor 1150 meters deep, in the Bellingshausen Sea off Antarctica, at an area where the shelf break and slope are cut by several underwater gullies. ROV SuBastian / Schmidt Ocean Institute However, these Antarctic ecosystems have been covered by 150-metre-thick ice for centuries, completely cut off from surface nutrients. Ocean currents also move nutrients, and the team says that currents are a possible mechanism for sustaining life beneath the ice sheet. The precise process is still a mystery, however. Related OceanXplorer: On board the billionaire's research vessel broadcasting from the deep sea 'Unique biodiversity': Scientists discover four new species of Octopus off the coast of Costa Rica What else does the Antarctic ice shelf expedition teach us? 'Serendipitous moments are part of the excitement of research at sea - they offer the chance to be the first to witness the untouched beauty of our world,' says Schmidt Ocean Institute executive director, Dr Jyotika Virmani. Although the stuff of marine researchers' dreams, the circumstances around the iceberg's breakaway are concerning. ADVERTISEMENT Iceberg calving is a normal occurrence for ice shelves. But climate change is accelerating the process, causing the ice sheet to shrink over the last few decades. 'The ice loss from the Antarctic Ice Sheet is a major contributor to sea level rise worldwide,' says expedition co-chief scientist Sasha Montelli of the UK's University College London (UCL). the iceberg calved from George VI Ice Shelf in the Bellingshausen Sea on 19 January 2025. NASA Earth Science Data and Information System (ESDIS) The international team - comprising scientists from Chile, Germany, Norway, New Zealand, and the US - also used the opportunity to gather data on the ice sheet's past behaviour. And they deployed autonomous underwater vehicles called gliders to study the impacts of glacial meltwater on the region. Preliminary data suggest 'high biological productivity' and a strong meltwater flow from the George IV ice shelf . ADVERTISEMENT 'Our work is critical for providing longer-term context of these recent changes, improving our ability to make projections of future change - projections that can inform actionable policies,' says Montelli. 'We will undoubtedly make new discoveries as we continue to analyse this vital data,' she adds - so watch this space.
